Compositional breakpoints of freshwater plant communities across continents

IF 1.2 4区环境科学与生态学 Q4 LIMNOLOGY

Limnetica Pub Date : 2023-03-31 DOI:10.23818/limn.42.21

J. García–Girón, J. Heino, Lars Baastrup‐Spohr, J. Clayton, M. D. de Winton, T. Feldmann, C. Fernández‐Aláez, F. Ecke, P. Grillas, M. Hoyer, Agnieszka Kolada, S. Kosten, B. Lukács, M. Mjelde, R. Mormul, L. Rhazi, M. Rhazi, Laura Sass, Jun Xu, J. Alahuhta

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Abstract

Unravelling patterns and mechanisms of biogeographical transitions is crucial if we are to understand compositional gradients at large spatial extents, but no studies have thus far examined breakpoints in community composition of freshwater plants across continents. Using a dataset of almost 500 observations of lake plant community composition from six continents, we examined, for the first time, if such breakpoints in geographical space exist for freshwater plants and how well a suite of ecological factors (including climatic and local environmental variables) can explain transitions in community composition from the subtropics to the poles. Our combination of multivariate regression tree (MRT) analysis and k-means partitioning suggests that the most abrupt breakpoint exists between temperate to boreal regions on the one hand and freshwater plant communities harbouring mainly subtropical or Mediterranean assemblages on the other. The spatially structured variation in current climatic conditions is the most likely candidate for controlling these latitudinal patterns, although one cannot rule out joint effects of eco-evolutionary constraints in the harsher high-latitude environments and post-glacial migration lags after Pleistocene Ice Ages. Overall, our study supports the foundations of global regionalisation for freshwater plants and anticipates further biogeographical research on freshwater plant communities once datasets have been harmonised for conducting large-scale spatial analyses.

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各大洲淡水植物群落的组成断点

如果我们要了解大空间范围内的组成梯度，揭示生物地理转变的模式和机制是至关重要的，但迄今为止还没有研究考察跨大陆淡水植物群落组成的断点。利用来自六大洲的湖泊植物群落组成的近500个观测数据集，我们首次研究了淡水植物在地理空间上是否存在这样的断点，以及一系列生态因素(包括气候和当地环境变量)如何很好地解释群落组成从亚热带到极地的转变。我们结合多元回归树(MRT)分析和k-means划分表明，最突变的断点一方面存在于温带至北方地区，另一方面存在于主要拥有亚热带或地中海组合的淡水植物群落之间。当前气候条件的空间结构变化是控制这些纬度格局的最有可能的候选因素，尽管不能排除在更恶劣的高纬度环境中生态进化约束和更新世冰期后的冰川迁移滞后的共同影响。总的来说，我们的研究支持了淡水植物全球区域化的基础，并为淡水植物群落的进一步生物地理学研究奠定了基础，一旦数据集被统一起来进行大规模的空间分析。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Limnetica LIMNOLOGY-MARINE & FRESHWATER BIOLOGY

CiteScore

3.70

自引率

7.10%

发文量

审稿时长

>12 weeks

期刊介绍： Limnetica publishes original research articles on the ecology of inland waters. The scope of Limnetica includes the ecology of rivers, lakes, reservoirs, coastal lagoons and wetlands, as well as biogeochemistry, paleolimnology, development of new methodologies, taxonomy, biogeography and any aspect of theoretical and applied continental aquatic ecology such as management and conservation, impact assessment, ecotoxicology and pollution. Limnetica will accept for its publication scientific articles presenting advances in knowledge or technological development, as well as as papers derived from new practical approaches on the topics covered by the journal.